Reggeization in Color
Abstract
In the high energy limit, s -t, amplitudes in planar gauge theories Reggeize, with power law behavior ( s-t )α(t) governed by the Regge trajectory α(t). Beyond the planar limit this simplicity is violated by "Regge cuts", for which practical organizational principles are still being developed. We use a top-down effective field theory organization based on color projection in the t channel and rapidity evolution equations for collinear impact factors, to sum large s -t logarithms for Regge cut contributions. The results are matrix equations which are closed within a given color channel. To illustrate the method we derive in QCD with SU(Nc) for the first time a closed 6×6 evolution equation for the "decupletons" in the 1010 Regge color channel, a 2×2 evolution equation for the "triantapentons" in the 3535 color channel, and a scalar evolution equation for the "tetrahexaconton" in the 64 color channel. More broadly, our approach allows us to describe generic Reggeization phenomena in non-planar gauge theories, providing valuable data for the all loop structure of amplitudes beyond the planar limit.
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